JP6203265B2 - Heatable fluid bag - Google Patents

Description

  The present invention relates to a fluid bag containing fluid contained in a bag or pouch that can be heated or cooled. In addition, the present invention is particularly, but not limited to, a portable fluid bag heater.

  Hot water bottles have been known for many years. Although these are inexpensive, it is difficult to fill warm water, and heating does not last for a long time. Accidents are likely to occur when hot water is poured, resulting in burns to the user. In addition, these hot water bottles have screw-in stoppers, which can be extremely difficult to use for the elderly and young people. It is well known that these types of bottles do not retain heat over time.

  Simple electrodes, such as those used in kettles, cannot be used in devices that can be charged, touched by the body, or touched, because of the risk of burns or electric shock Is extremely high.

  In this specification, unless stated otherwise, when a document, action, or knowledge item is cited or explained, this reference or explanation shall refer to that document, action, or knowledge item, or any combination thereof. As of the priority date, publicly available, publicly known, part of common general knowledge, or related to an attempt to solve a problem related to this specification. Does not admit that is known.

  It is an object of the present invention to provide an improved heatable or coolable fluid bag and fluid heater that ameliorates some of the disadvantages and limitations of the known art or at least provides a useful option publicly. It is.

  In a first aspect, the present invention broadly comprises a heatable fluid bag, the bag having an end adapted to provide a sealed space for containing fluid therein. The bag includes the following components: at least one heating element, power connection means, a circuit, switching means, and at least one mechanical switch, these components being inside the bag So that when the power connection means is connected to the power source, the heating element thereby heats the fluid and the magnetic switch is used for gas or pressure accumulation. Protects against explosion and prevents explosion, the magnetic switch includes an elongated member having an end, and one end is located on one side inside the bag Connected, the other end is joined inside the other side of the bag, and if the bag is inflated beyond a certain distance between the sides of the bag, the circuit can be disconnected, After the bag is heated to a certain temperature by the heating element, it belongs to a heatable fluid bag that can be disconnected from the power source and the bag can be used as a portable heating element.

  Preferably, the power connection means is formed as part of a housing including a socket for a power supply plug, the housing being coupled to the inside of the bag but electrically and fluidly from the sealed fluid. Fluidly separated.

  Preferably, the bag can be heated within 10 minutes, and when the bag is disconnected from the power source, the heating of the bag can last for 5 hours. Preferably, one end of the elongated member is welded to the inside of the bag.

  Preferably, the housing includes at least one bleed valve with at least one deformable opening located in the housing containing the switch, the opening being adapted to relieve excessive pressure in the bag. The part is coupled to a sealed space with a fluid or bag. Preferably, all electrical circuits, connectors, wiring and switching components are provided with double insulation.

  Preferably, the bag is formed from a material having a material formed from at least one layer of PVC having a welded seam, and the housing includes at least one thermostat for temperature control. Preferably, the heater element includes a heating wire encased by a heater cage containing a thermal fuse, the heater cage being attached to the bag in an enclosed space, wherein the heating wire is electrically and fluidly Separated from the bag.

  Preferably, the heater cage includes an upper casing member 51 and a lower casing member 63, in which a double-insulated heating wire is encased, and the double insulation is formed by alternating insulating sheets and conductive sheets. The insulating sheet contains mica material, and the conductive sheet contains aluminum.

  Preferably, the insulating sheet and the conductive sheet are arranged such that the first outer conductive sheet 52 (outer aluminum shell), the first outer insulating sheet 53 (mica sheet), and the first inner conductive sheet 54 (inner aluminum). Sheet), first inner insulating sheet 55 (mica sheet), intermediate outer peripheral annular portion 56 (plastic ring), mica support skeleton member 57 for heating wire, heating wire 58, second inner insulating sheet 59 (mica sheet) ), A second conductive sheet 60 (aluminum sheet), a second outer insulating sheet 61 (mica sheet), and a second outer conductive sheet 62 (aluminum sheet). Preferably, the heater element can be U-shaped or planar and the fluid can be any fluid that can be heated or cooled.

  Preferably, the housing includes at least one earth test point so that a ground connection can be verified, and the housing is electrically connected to the power connection to confirm that power is connected to the circuit. Includes an indicator lamp connected to. Preferably, there is a detachable probe located in the recess of the housing, and the user can insert the probe into the opening of the bleed valve so that air and gas can escape from the sealed space of the bag.

  In a second aspect, the present invention broadly refers to a heater element that includes a heating wire encased in a heater cage, the heater cage being attachable to the inside of a bag containing fluid, Electrically and fluidly separated from the bag, the heating wire can be connected to a power source, whereby the wire is heated to heat the fluid, and the heater cage is connected to the upper casing member 51 and the lower casing member 63. And the alternating arrangement of the insulating sheet and the conductive sheet is located between the upper casing member and the lower casing member, and the alternating arrangement of the insulating sheet and the conductive sheet is the first outer conductive member. Sheet 52 (outer aluminum shell), first outer insulating sheet 53 (mica sheet), first inner conductive sheet 54 (inner aluminum sheet) Sheet), first inner insulating sheet 55 (mica sheet), intermediate outer peripheral annular portion 56 (plastic ring), mica support skeleton sheet member 57 for heating wire, heating wire 58, second inner insulating sheet 59 (mica) Sheet), a second conductive sheet 60 (aluminum sheet), a second outer insulating sheet 61 (mica sheet), a second outer conductive sheet 62 (aluminum sheet), and an outer casing member. Belonging to the heater elements, which are coupled to each other.

  Preferably, the heater element includes a thermal fuse electrically coupled to the heating wire that is set to a specific temperature to function as a safety mechanism when the heater wire is heated, the heater element being U-shaped. The insulating sheet includes a mica material, and the conductive sheet includes an aluminum material.

  In a third aspect, the present invention is a cryogenic fluid bag comprising a side bag and a magnetic switch adapted to provide a sealed space for containing a fluid therein, wherein the fluid is Frozen, magnetic switch protects against gas pressure build-up and prevents explosion, includes an elongated member having an end, one end of the bag Connected to the circuit located on one side of the bag, the other end is joined to the inside of the other side of the bag, and the bag is inflated beyond a certain distance between the sides of the bag If so, it includes a cryogenic fluid bag, which can cut the circuit and the fluid is an antifreeze. Preferably, the housing includes at least one bleed valve with at least one deformable opening located in the housing that includes a switch adapted to relieve excessive pressure in the bag.

  In a fourth aspect, the present invention includes a heater element of a heatable fluid-filled bag, the heater element allowing the heater element to be heated when connected to a power source. A heat generating member having a means, a first insulating layer having an end, and a first heat conductive layer having an end, wherein the heat generating member is covered with the first insulating layer, One insulating layer is covered by a first thermally conductive layer, and the heat generating member, the first insulating layer, and the first thermally conductive layer are held together by an inner end support member at each end. The inner end support member is insulative and has at least one inner end support member having at least one opening to allow the power connection member means to pass therethrough.

  Preferably, the power connecting member means includes at least one electrode in the form of an electrode plate member electrically connected to the heat generating member, the heat generating member being sandwiched between the electrode plate members, The member means includes at least one wire that is electrically connected to each electrode plate member to allow a power or electrical connection between the heater element and the power connection means.

  Preferably, the heater element includes a second insulating layer having an end, a second thermally conductive layer having an end, and an intermediate end support member, wherein the second insulating layer includes the first insulating layer. 1 is in the form of a sleeve, the second insulating layer is covered by a second insulating layer shaped as a sleeve, and the intermediate end support member is made of an insulating material And is slidably fitted to the end of the second insulating member and the end of the second heat conductive member so as to cover and adjoin the inner end support member, and at least One intermediate end support member has at least one opening that allows the power connection member means to pass therethrough.

Preferably, the heat generating member is formed of any material capable of functioning as a resistor for converting electric energy into heat energy, and the first insulating layer and the second insulating layer are formed of plastic, The first heat conductive layer and the second heat conductive layer are formed from a metal in the shape of a sleeve, and the inner end support member and the intermediate end support member are formed as a plate cap-shaped member. A protruding lip portion having a concave portion is provided on the inside, and an opening is formed as a protruding cylindrical member on the side of the plate cap opposite to the lip portion.

  Preferably, the outer end support member is adjacent to the intermediate end support member at each end of the second thermally conductive layer, and at least one outer end support member penetrates the electrical connection portion. Each of the inner end support member, the intermediate end support member, and the outer end support member, each of which can be sealed to exclude fluid intrusion into the opening. Are aligned, and the electrical connection can pass through all the openings, each outer end support member is L-shaped with a base adapted to be coupled to the inside of the bag, and second It is being fixed to the edge part of this heat conductive member.

  Preferably, each of the first insulating layer and the second insulating layer can be formed as at least a double insulating layer.

  In a fifth aspect, the present invention includes a heatable fluid-filled bag adapted to be electrically connected to a power source, the fluid-filled bag comprising at least one bag for sealing fluid. And a housing including power connection means adapted to electrically connect the bag to a power source, the housing comprising at least one insulating layer, the heater element comprising A heat generating member having power connecting member means, a first insulating layer having an end, and a first heat conductive layer having an end, wherein the heat generating member is covered by the first insulating layer. The first insulating layer is covered with a heat conductive layer, and the first insulating layer and the heat conductive layer are held together by the inner end support member at each end, and the inner end The support member is A gender, or are formed of an insulating material, having at least one of the inner end support member having at least one opening power connection member means to be able to penetrate in order to connect to the power connection unit.

  Preferably, the heater element includes a second insulating layer having an end, a second thermally conductive layer having an end, and an intermediate end support member, the second insulating layer being a first insulating layer. A heat insulating layer, in the form of a sleeve, the second insulating layer is covered by a second insulating layer shaped as a sleeve, and the intermediate end support member is made of an insulating material. Formed so as to be slidably fitted to the end of the second insulating member and the end of the second heat conductive member so as to cover and adjoin the inner end support member, and at least one of The intermediate end support member has at least one opening that allows the power connection member means to pass therethrough, and the outer end support member is an intermediate end support member at each end of the second thermally conductive layer. Adjacent and at least one outer end support member penetrates the electrical connection Each of the inner end support member, the intermediate end support member, and the outer end support member can be sealed to eliminate fluid intrusion into the opening. The openings are aligned, the electrical connections can pass through all the openings, and each outer end support member is L-shaped with a base adapted to be coupled to the inside of the bag; It is being fixed to the edge part of the 2nd heat conductive member.

  Preferably, the housing includes at least one inner housing that includes at least one recess for the power connection means, the recess for the power connection means adapted to slidably fit within the inner housing. A plug housing base having a cylindrical shape with a recess and a recess, and a plug holder having a cylindrical cap with a plug recess adapted to receive the electrical insertion blade, the plug insertion blade following the electrical insertion blade A holder fitting is arranged, followed by a plug insert holder attachment, followed by an access end cap attachable to the bag, the inner housing also having another recess for safety switching means, Safe switching means, bar with sliding housing, switch and magnet And an elongate member having a magnet, the elongate member being coupled to the inside of the bag at one end, and the other end being coupled to the switch by means of a power connection member; Operatively coupled to the power connection means by adjacent magnets, the sliding housing holds the bar member, the switch, and one end of the elongated member having the magnet, together with the elongated member, of the bag. The separation of the magnet due to the expansion of the wall causes the power connection means and the safety switching means to be electrically disconnected from the power source.

Preferably, the heat generating member is formed of any material capable of functioning as a resistor for converting electric energy into heat energy, and the first insulating layer and the second insulating layer are formed of plastic, The first heat conductive layer and the second heat conductive layer are formed from a metal in the shape of a sleeve, and the inner end support member and the intermediate end support member are formed as a plate cap-shaped member. A protruding lip portion having a concave portion is provided on the inside, and an opening is formed as a protruding cylindrical member on the side of the plate cap opposite to the lip portion.

  Preferably, each of the first and second insulation layers and the housing can be formed as at least a double insulation layer, so that the bag can be filled with air or fluid, or removed from the bag. A bleed valve or openable bag plug in the form of a plug in the hole, the bag including a thermostat electrically attached to the power connection means between the plug holder housing and the power connection means recess; The end cap can have an LED to indicate whether it is electrically connected.

  Preferably, the bag includes safety switching means and includes a magnet located on the elongated member that mates with the magnet in the safety switching means. Preferably, the fluid may contain an antifreeze so that the bag can be cooled. Preferably, the fluid can be heated by the heater element to a temperature in the range of −10 ° C. to 100 ° C.

  Those skilled in the art to which this invention pertains will recognize numerous changes in structure and various different embodiments and uses of the invention without departing from the scope of the invention as defined in the appended claims. Will be clear. The disclosures and the descriptions herein are purely illustrative and are not intended to limit the invention.

  The invention will now be described by way of example with reference to the accompanying drawings.

FIG. 3 is a perspective view of a heatable or coolable fluid bag having a first heater element. It is a one part perspective view of a magnetic switch. It is a perspective view of another part of a magnetic switch. It is an inner side perspective view of the casing of a 1st heater. It is a perspective view of the 1st heater. It is a perspective view of the housing of a bag. It is a top view of the housing of FIG. It is a rear surface perspective view of the end cap of a housing. It is a perspective view of a bleed hole probe. FIG. 6 is a perspective view of a second heater and housing of a heatable fluid bag. FIG. 7 is a perspective view of components of a third heater of a heatable fluid bag. It is a perspective view of the bag which has the 3rd heater of FIG. FIG. 6 is a perspective view of a fourth heater assembly of a heatable fluid bag. It is a bottom view of the bag of FIG. It is a side view of the bag of FIG. It is a top view of the bag of FIG. FIG. 10 is a perspective view of a heatable or coolable bag having a fifth heater element. It is a perspective view of the component of the heater element of FIG. It is a perspective view of the component of an electric power connection means and a safety switching means. It is a rear surface perspective view of the arrangement structure shown in FIG. It is a side perspective view. It is a perspective view of a safe switching means. FIG. 19 is a perspective view of the heater element of FIG. 18.

  In the following description, the present invention will be described with reference to preferred embodiments of the present invention (ie, heatable or coolable fluid bags and heaters). The heatable fluid bag aims to provide a heater element that is insulated with respect to the fluid. The present invention is not limited to these preferred embodiments, because these preferred embodiments are merely intended to illustrate the present invention purely, and possible variations and modifications without departing from the scope of the present invention. This is because the correction form is easily apparent.

Heatable Fluid Bag FIGS. 1-20 show a heatable fluid bag 1 comprising a bag 2, a fluid 3 and components illustrating several different examples of heater elements. The container 2 is formed from a material having an outer surface 5, an inner surface 6, side surfaces and an edge 8. The container 2 is adapted to provide a fluidly sealed enclosed space 8 for containing the fluid 3 therein.

  The bag 2 is a housing that includes the following components: at least one heater including a first heating element 10, and power switching means 11, an electrical circuit 12, and at least one magnetomechanical switch 13 switching component. Including. The switching components are adapted to be electrically connected to each other inside the bag so that when the power connection means 11 is connected to a power source, the heating element 10 is thereby heated to allow the fluid to flow for a certain time. Heat to a specific temperature.

  As shown in FIGS. 1, 4, and 5, the heating element 10 can be located in a heating cage 10 a that is coupled and supported on the inner surface of the bag 2. FIG. 4 shows only one half of the prefabricated heater cage. The heating element 10 can include a connector 15, a ground connector 16, and a U-shaped member 14 having a heating wire. The electrical circuit 12 comprises wiring and appropriate connections that electrically connect the heating wires of the heating element 10 to the power connection means 11. The power connection means 11 is housed in a housing 17 that can be supported by the inside of the bag 2 and includes a socket for a plug that is part of the power supply. The housing 17 can include a rectangular box-like structure that forms a recessed space and a detachable lid.

  In use, the electric hot fluid bag can simply be plugged into a power source and heated to a specific temperature for a specific time. For example, depending on the size of the bag and the size of the element 10 that includes the heating wire, the time for properly heating the fluid and the bag may vary, but as an example, a typical portable bag may be heated. The time required is only 10 minutes. After heating, when unplugged or disconnected from the power source, the heated bag can be used immediately as a portable device that can heat the object, and this heating lasts for about 5 hours. be able to.

  The magnetic switch 13 is adapted to protect against gas pressure buildup and explosion and includes an elongated member having opposite ends 18, one of which is located on one side of the inside of the bag. The other end 18 is connected to the circuit 12 and is coupled to the inside of the other side of the container so that the bag can exceed a certain distance between the inside of the bag or beyond a certain pressure. When inflated, the electrical circuit 11 can be disconnected.

  The housing 17 includes at least one bleed valve 20 proximate to the power connection means, the bleed valve 20 having at least one deformable opening 21 located in the recess of the housing 17. The opening 21 is designed to relieve excessive pressure in the bag. As shown in FIG. 8, the high temperature fluid bag or the low temperature fluid bag can include a probe 23 that can be detachably stored in the recess of the housing 17. The probe 23 is formed as an elongated member 24 that becomes gradually thinner, and has a head 25 at the thicker end. When the user uses the probe 23, the user pushes the probe into the deformable opening to hold the sealed space. Releases air and gas held inside. The bleed valve 20 can be provided with a deformable member composed of two cylindrical members that are slidably fitted to each other, and has an opening formed as a central hole.

  All electrical circuits, connectors, wiring, and switching components are provided with double insulation. The bag 2 can be any suitable shape, for example, formed from a material with at least one layer of PVC. Alternatively, the material can have a three-layer PVC outer material with a welded seam. The housing 17 includes at least one thermostat 32 for temperature control. The heating cage 10a shown in FIG. 4 houses a heating element, an electrical connection portion, and a thermal fuse 33, and is sealed with a resin for protection and waterproofing. The housing 17 includes at least one ground test point 35 so that a ground connection can be verified. The housing 17 can also include an indicator lamp 36 that is electrically connected to the power connection to verify that power is connected to the circuit.

  As shown in FIG. 1, the electrical circuit is formed as a bundle of at least double insulated wires extending from the heating element 10 to the power connection means 11. The elongated member of the magnetic switch 13 can include a tubular structure that can be solid or hollow. The end 17 of the elongated member includes a mating structure including a circular head structure 37 having a groove 38 and is slidable with an elongated bar member having an elongated body having a circular head 39 having a complementary groove 40 at one end. The rest of the main body is provided with two parallel bars 41 and 42 having a rectangular cross section, and an end cross bar 43 at the end opposite to the circular head 39.

  To complete the circuit, if the head and groove fit together and the bag expands too much, one side will move away from the other side and the elongated member will move together, causing the head 37 to move out of the groove in the head 39. The electrical circuit is disconnected. At least a part of the housing including the magnetic switch 13 may have a detachable cover 45 attached by a column 46 fitted and attached to the hole 20a, as shown in the rear view of FIG. 6 and 6a show an enlarged view of the housing without the circuit.

Second heater element: FIG.
FIG. 9 shows another example of a heater element that is similar to the first heater element, but with two wires protruding to electrically connect to the power source, Can be referred to as a heater element. Further, an openable cap 47 for covering the power connecting means 11 is also shown. The outer casing of the heater element is made of plastic, which is thick or reinforced to the extent that it is considered double insulated. The outer casing can be a thermoplastic that can be injection molded over the metal element or electrode.

Third heater element: FIGS. 10 and 11
FIGS. 10 and 11 show a third heater element (referred to as heater element 50), which is another version of the heater element 10 of FIGS. 1, 4, 5 and 9 and other configurations of the hot fluid bag. A double insulation layer is included above and below the heating wire that is electrically connected to the element. The heater element 50 is formed as a substantially planar member composed of a layered planar insulating sheet member and a conductive sheet member, whereas the other heating elements are U-shaped. In addition, it includes other components already disclosed: bag, power connection means 11, housing 17 and mechanical magnetic switch 13, bleed hole 20, indicator lamp, and thermostat. This sheet-like structure increases the heating area and increases the conductivity to the heat sink, and the structure is designed as a double-insulated and individually sealed structure independently. A thermal fuse can be incorporated into the heater element 50 as a power disconnect means.

  The conductive member in this example heating element can be an aluminum material that is designed to diffuse or dissipate heat well into water. In summary, insulating members and conductive members are alternately arranged. As shown in FIG. 9, there are some components from one surface of the heater element 50, but the following description will be made in order from the top, including the inner part.

The first non-conductive outer casing member 51 (plastic)
First outer conductive sheet 52 (outer aluminum shell)
-First outer insulating sheet 53 (double mica sheet)
-First inner conductive sheet 54 (inner aluminum sheet)
-First inner insulating sheet 55 (mica sheet, eg 0.4 mm thick)
-Middle outer peripheral ring 56 (plastic ring)
A mica support skeleton support member 57 for the heating wire;
A heating wire 58 wound around the skeleton support member 57
-Second inner insulating sheet 59 (mica sheet)
-Second conductive sheet 60 (aluminum sheet)
-Second outer insulating sheet 61 (double mica sheet)
-Second outer conductive sheet 62 (aluminum sheet)
Second non-conductive outer casing member 63 (plastic)

  The first component of the series may be a first non-conductive outer casing member in the form of a plastic protective casing 51 molded as a grid pattern member having a peripheral curved wall. The casing can be formed from a heat resistant plastic. Underneath the outer casing 51 is a thermal / electrically conductive sheet 52 in the form of an outer aluminum shell formed as a peripheral member having upright walls and horizontal walls. The horizontal wall is adjacent to the edge of the curved wall, while being adapted to slidably fit inside the curved wall of one non-conductive casing 51.

  Under the outer casing 51 and the conductive sheet 52, a combination of materials including a first insulating sheet 53 formed from a mica material as a sheet material extending over a region smaller than the region surrounded by the conductive layer 52 Is present. The first sheet 53 can be formed as a double sheet. Under the first insulating sheet 53, there is a first inner conductive sheet 54 in the form of an aluminum sheet material (eg, 1 mm thick foil) in substantially the same area as the first insulating sheet 53. Below the inner conductive sheet 54 is a first inner insulating sheet 55 in the form of a mica sheet material 55.

  Under the second insulating sheet 55 is a mycus skeleton support member 57 designed and shaped to support the heating wire 58, which can be, for example, a nickel chrome alloy. As shown in FIG. 8, the skeleton member is wound as a loop parallel to each other, and the wire coming out of the skeleton member is connected to the power connecting means 11 by a heat-resistant wire connecting portion.

  Under the skeleton member 57 and the heating wire 58, a second inner insulating sheet 59 in the same region as the sheets 55 and 56 is adjacent. A second inner conductive sheet 60 is adjacent to the second inner insulating sheet 59, and the size of the sheet 60 is substantially the same as that of the sheet 59. However, in this example, the second inner conductive sheet 60 is formed as a sheet surrounded by thicker edges.

  Adjacent to the sheet 60 is a second insulating sheet 61 that is shaped to be larger than the area of the sheets 59 and 60. A second outer conductive sheet 62 is adjacent to the second insulating sheet 61. The sheet 61 can be formed as a mica double sheet. The sheet 62 is larger than the area of the sheets 59 and 60. Finally, the bottom or opposite end is a second outer casing 63 which is shaped as a planar grid sheet with openings.

  An intermediate outer peripheral annular member 66 is formed from an annular elongated wall member in the center of the above-described assembly of components, and projecting members extend vertically from the upper and lower surfaces of the elongated wall member. The upper protruding member and the lower protruding member may or may not be aligned. The upper projecting member is designed to slidably fit into a correspondingly sized and positioned groove (not shown) on the lower surface of the first outer casing 51 to form an upper inclusion region. The edge member 66 has a larger area than the sheets 53, 54, 55 and the sheets 59, 60, 61, and the sheets 53, 54, 55, 57, 58 are connected to the first outer casing member 51 and the central annular member 56. It has a thickness that can be wrapped by.

  On the other side of the central annular member 66, a lower protruding member is slidably fitted into a corresponding groove in the second outer casing member 63 so as to wrap around the sheets 59, 60, 61, 62. Yes.

  The inner conductive sheet 60 is formed as a sheet having an outer peripheral edge on at least three of the four sides, and a concave region is formed by these outer peripheral edges, and the sheet 59 can be slid in the concave region. Can accept. Furthermore, a skeleton member 57 having a heating wire 58 can be received on the sheet 59 and in the recessed area of the sheet 60.

  The first inner conductive sheet 54 and the second inner conductive sheet 60 (which include the mica sheet 55, the mica skeleton support sheet 57, the wire 58, the mica sheet 59) are connected to each other by any suitable means. The means in this case is to seal the two aluminum sheets together to prevent moisture and moisture from intervening, while pressing the two aluminum sheets together to interpose the above sheet. It is a means to fix to. For example, this connection can be made by welding. As another means for bonding and sealing, epoxy or the like can be used. The outer casing members 51 and 63 can be joined or joined together to form a heater element 50 assembled to a thickness of, for example, 6 mm. These casing members not only protect the assembly inside, but also allow water to circulate over the seat, and also function to keep the heater element away from the wall so that it does not contact the bag wall directly To do. The power requirement can be 110V-220V at an output of 450 watts as an example. The wire can be wound at intervals of 1.5 mm, and the skeleton 57 can be 90 mm long × 40 mm wide and 1 mm thick.

Cryogenic Fluid Bag The present invention can also include a cryogenic fluid bag, which is a bag having a side, adapted to provide a sealed space for containing a fluid 3 therein, a magnetic switch 13, It has. In this example, the fluid is cooled by placing it in a refrigerator. The fluid can include a type of antifreeze, or a mixture of water and antifreeze, or any fluid that can be cooled or frozen. In addition, the cryogenic fluid bag can also include at least one bleed valve 20 and a probe.

  Similar to the hot fluid bag, the magnetic switch 13 is adapted to protect against gas pressure build-up and explosion and includes an elongated member having an end. One end of the elongate member is coupled to the electrical circuit 12 located on one side of the bag, and the other end 17 is coupled to the inside of the other side of the bag. The electrical circuit 12 can be disconnected when the bag is inflated beyond a certain distance between its sides. The structure of the magnetic switch 13 can be the same as that described for the hot fluid bag.

Fourth heater element: FIGS.
As with the other bags of FIGS. 1-11, a fourth heater element 110 is shown electrically connected to a housing 117 having power connection means 111 and includes a bag (not shown) containing fluid therein. The structure of the magnetic switching means 113 is not similar to that of the other bags in FIGS. In this example, the further heater element has three wires electrically connected to the power connection means and the magnetic switching means, one of the wires being a tester wire 119 and the other wire being plugged in. The blade is electrically connected to the heater element. This additional heater element is also encased in an insulating support cage 116.

Fifth heater element: FIGS.
In this example, the fifth heater element 200 is operably coupled to all other components such as power connection means 217 and safety switching means 213 in the housing in the bag 202 in which the fluid is contained. The fifth heater element shown in FIGS. 16 to 20, like the other bags in FIGS. 1 to 15, has at least an outer housing, an inner housing for storing power connection means, and safety switching means. .

  The power connection means can include a thermostat, a resistor, a power plug housing base, an electrical plug (eg, found on a plug), wiring, fixture, plug holder, LED, end cap. The safety switching means includes a switch, a horizontal sliding plate, a cover, an elongated member having a magnet at one end, and a grooved bar having another magnet. The fifth heater element 200 includes a first combination, a second combination, and a third combination of components from the center toward the outside.

The first combination, from the center, includes a heat generating member 20 1 encased in electrically connecting members are adjacent, the electrical connection member, the power in the form of electrodes with a direct coupled wire heating element 201 Connection member means may be included, or the electrical connection member may be part of an electrical circuit, the first outer electrode plate member 202 having an end, and an end that is another part of the electrical circuit. It can be formed as a second electrode plate member 203 having a portion. Each of the first and second electrode plate members having ends, or at least the electrodes, has a power connection or electrical connection in the form of a wire 204 connected to one end so that it can be connected to a power source.

The heat generating member 201 needs to be able to function as a resistor for converting electric energy into heat energy. For example, the heat generating member 201 having an end can be made of any material having dimensional stability, chemical resistance, and particularly resistance to high temperatures and hydrolysis . Conductive plate member 202 and 203, current can flow, can function as a heat sink, any material any thickness, for example, gold, silver, copper, brass, steel, stainless steel or aluminum, It can be.

A first insulating member or insulating layer in the form of member 205 in the form of at least one sheet or membrane layer of any selected thickness having an edge is provided with first electrode plate member 202 and second electrode. Fully enveloping the electrode plate member 203, followed by a first thermally conductive layer 206 in the form of any selected thickness sheet member 206 having ends. For example, the film layer 205 can be formed from a polyimide compound and can be layered as double insulation. The first thermally conductive sheet member or layer 206 is in the form of a sleeve with ends and can be formed from any material capable of conducting heat, such as aluminum, steel, copper, and the like. Aluminum is useful because it is lightweight and strong. End of the heat-conductive sheet member is adapted to receive the inner end portion supporting member 207 i.e. pairs. The inner end support member is formed as an insulating member, and can be made of, for example, plastic or silicon.

  The first combination is the innermost combination and supports and maintains the outer combination including the second combination and the third combination. The inner end support member 207 is shaped as a planar cap, one of the end members having at least one projecting outwardly through the member for the wire 204 on one side of the cap. There are two openings or holes 208, and on the opposite side of the cap is a protruding lip portion 209 having a recess, which is the end of the first and second outer sheet members. It is sized to accept the department. The hole 208 is only provided in at least one of the inner end support members 207.

  In summary, the first combination can include, for example, the following members in order from top to bottom in the cross section:

A first thermally conductive member 206 (eg, aluminum) having an inner end support member 207;
Two inner insulating layers 205
-Electrode plate 203 / heating member 201 / electrode plate 202 with wire 204
-Double inner insulating layer 205;
A first thermally conductive member 206 (eg, aluminum) having an inner end support member 207;

  Outside the first combination, a second combination comprising a second insulating sheet member or layer 210 adjacent to the first combination of first thermally conductive members 206 encloses the first combination and is adjacent. doing. The second insulating sheet member 210 is formed as an elongate sleeve shaped to have an end and is not conductive and can be sealed from any fluid, like the other insulating sheet layer 205. It can be formed from or include any insulating material (eg, plastic or polyimide) of any thickness and size that provides a physical barrier to electricity. The second insulating sheet layer or member 210 can be formed from at least one insulating layer. In one example, the second insulating sheet layer 210 can be a double insulating member.

As part of the second combination, a second thermally conductive layer or member 215 having an open end wraps adjacent to the second insulating sheet layer or member 210, and the open end of the member 215 is The intermediate edge support member 212 supports and maintains all the sheets described so far in their respective appropriate individual positions. The intermediate end support member 212 is similar in shape and material to the inner end support member but has a larger area than the inner support member and is similar for the wire 204 on one of the intermediate end support members 212. There are openings or holes 212a that are aligned with the holes 208 of the inner end support member, but the lip forming portion 214 is in the end of the second thermally conductive sleeve member 215. It is supposed to fit. The electrical connector 210 a is electrically supported by the first thermally conductive sleeve member 206 , but is electrically connected to the electrode 202 or the electrode 203.

The third combination wraps around the outside of the second combination and is adjacent. The third combination includes an outer end support member 216 that has a larger area than the intermediate end support member 212. The outer end support member 216 is adjacent to the intermediate end support member 212 and further maintains all seat and sleeve members in the first and second combinations in their proper positions relative to each other. ing. In addition, the outer end support member 216 has an opening or hole 218 that protrudes to one outer surface of the cap for the wire 204 and has a base 219 without a lip but thereby an outer side. The end support member has an L-shaped cross section, and the base 219 is provided with a groove so that it can be secured to the bag by any suitable means such as a fixture, adhesive, heat sealing, further bracket, and the like. The outer end support member 216 need not be formed from an insulating material, but can be formed from any material that allows for proper support and bonding to the second thermally conductive sleeve member 215 and the bag 202.

  When assembled, all openings or holes 208, 212a, 218 are aligned (can include protruding frustoconical shapes that slidably fit together) and the wire 204 is connected to the first sheet 202 and the second It can be pulled out of the thermal element from the sheet 203 and connected to the power connection means 211. The outer end support member 216 further includes fixing means 220, and an appropriate fixing tool or mounting bracket (eg, bolt, bracket, clamp, etc.) can be inserted to attach the outer end member to the outer aluminum sleeve. This allows all of the components of the heater element to remain fixed and operably coupled to each other. The outer end support member hole 218 is sealed around the wire 208 to prevent ingress of fluid from the hole.

Region of the intermediate end support member 212, as to attach the fastener 220 from the outer end support member 216 to the second thermally conductive sleeve 215 will remain peripheral portion recessed is exposed, the second heat The dimension is such that only a part of the edge of the conductive sleeve member 215 is adjacent, and the outer end support member is spaced from the exposed end to form a gap, with only the fixture in between. Connecting gaps. In another option, there may be no exposed edges, so that the outer end support member can overlap the intermediate end support member, and thus the fixture 220 penetrates the intermediate end support member. Engage with the end of the second heat conducting member 215.

  As shown in FIGS. 18, 18a, and 18b, the housing 217 includes an inner housing 217a and an outer housing 217b to form a double insulating housing. Furthermore, the power connecting means 217 supported and attached to the inner housing 217a functions as a method of cutting power to the bag or element 200 for any reason such as electrical failure, bag rupture, fluid loss, etc. Thus, the safety switching means 213 electrically connected to the power connection means 217 is included. Instead of the safe switching means 213, any type of alternative means is possible, such as magnetic switching means, electronic fuses, solenoids, etc.

  The outer housing 217 b is physically coupled at least to the inside of the bag 202 so as to face or be adjacent to the fluid and power connection means 217, and the power inlet is connected to the heat element or the heating element 201 or the electrodes 202 and 203. Any means that can be electrically connected (eg, wireless connection or wire connection 217c) is included. The wire connection 217c can be in the form of a single cable composed of a plurality of wires, or can be provided with individual wires 210a having wire continuity testing means.

  The inner housing 217a includes a safety switching means recess 230 that can be, for example, rectangular and a power connection means recess 231 that can be, for example, circular. The power connection means 217 operatively coupled and supported by the power connection means recess 231 includes a plug housing base 232 for the electrical insertion blade 233 (e.g., cylindrical and can have a rectangular recess); Followed by a plug holder 234 (eg, comprising a circular ring at the top and can be provided with a cylindrical body having a rectangular recess), the plug holder 234 covering the plug housing base, wherein the insert blade 233 is rectangular. It will be in the state which protruded upwards through the bottom face of this recessed part.

  Finally, there is a power connection end cap 236 (which can be, for example, a circle with a fixed post) that provides access to the insert 233 for connection to a power source. A lamp 237 in the form of an LED can be included that indicates whether power is on. The attachment for movably attaching the cap 236 to the plug holder 234 can include a spring and bolt fixture 240, but another attachment for attaching the post on the back side of the cap 236 to the post recess in the holder 234. A type of attachment is also possible. At the time of assembly, the concave portion protruding to the back side of the holder 234 fits into the concave portion of the housing base 232.

  The safety switching means recess 230 adjacent to the power connection means recess 231 and coupled by the coupling recess 230a includes the safety switching means 213. The safety switching means 213 includes an elongated member 238 having opposite ends, one end of which is electrically connected to the power connection means by at least one magnet 238a in a slotted elongated double bar 242. The bar 243 is slidably attached to the horizontal sliding plate 243 on each side of the recess 230 (the drawing shows only one sliding plate that functions to attach the switch 245; The elongate member 238 enters the recess of the inner housing 217a) and includes at least one magnet 242a located at one end protruding through the opening 241. When assembled, the magnet 238a forms a magnetic coupling directly or indirectly adjacent to complete the power connection from the power connection means to the heater element. The distal end 238b of the elongate member 238 protrudes through the opening 241 in the recess 230 and extends to the opposite inner side of the bag so that the bag is excessively expanded to the desired level or pressure. If so, the elongated member 238 moves with the bag wall to disconnect the magnet 238a from the magnet 242a, thereby disconnecting the electrical connection at the opposite end to the power connection means. The safety switching means 213 includes a switch 245 (eg, a micro switch) that is electrically connected to the power connection means via the coupling recess 230a. The recess 230 has a detachable cover cap 246.

  Optionally, a thermostat 250 (e.g., can be tube shaped) and a resistor 250a can be included, which are intended to automatically disconnect power to the bag when a certain temperature is reached. The power connection means recess 231 can be operatively included. As with other versions, any of the components described so far can be combined or included. The fluid may or may not contain an antifreeze so that the bag can be used as a hot water bottle or as a cooling bag. The bag of the present invention is designed to be cooled and heated in the temperature range of −10 ° C. to 100 ° C., but any temperature is possible. The bag includes at least one openable bag stopper 247 so that air or fluid can be introduced or removed. The bag plug 247 may include a plug in a simple press releasable valve or a hole type valve as shown in FIG.

  In addition, if a product, method, or process described in this specification or claims is sold incompletely, sold as an individual component, or sold as a “kit of parts” It should be understood that such use is within the scope of the present invention.

  The above and other features of the present invention, as well as the manner of operation and function of the combination of related structural elements and parts, and the economics of manufacture, are further understood in view of the following description with reference to the accompanying drawings. It will become clear. All drawings form part of the present specification and like reference numerals represent corresponding parts in the various figures.

  For the purposes of the following explanation, the words “up”, “down”, “right”, “left”, “vertical”, “horizontal”, “top”, “bottom”, “lateral”, “vertical” , And their derivatives, in the present invention, shall refer to directions in the figures of the drawings. However, it should be understood that the present invention may take a variety of alternative variations unless otherwise specified. Furthermore, it is to be understood that the specific devices illustrated in the accompanying drawings and described in the following specification are merely exemplary embodiments of the invention. Accordingly, specific dimensions and other physical characteristics related to the embodiments disclosed herein are not to be considered as limiting the invention.

Advantages a) Prevention of electric shock b) Double-insulated heater element c) Air can be evacuated or evacuated d) Switch can be disconnected if bag over-inflates e) Moderate cost f) Heating Or easy to cool g) heat is maintained for a long time h) many safety features i) tested by accredited agencies j) can be used as a bed warmer or personal warmer k) heatable bag or coolable L) Easy to use

Variations Throughout the description herein variations such as the word “comprising” and its conjugations are not intended to exclude other additional elements, components, integers, or steps. The bag can be formed in any suitable shape, such as rectangular, square, elongated, etc., depending on the type of application intended. The bag itself can be used to warm or cool the object, or it can be used on any part of the body, such as a bed heater or a personal heater for the waist or neck be able to. The heating element is shown as a horseshoe shape or plate shape, but can be any shape. Optionally, the bag can include a variety of covers (eg, sheepskin covers) for the purpose of improving or changing the look and providing good warmth and comfort.

  In addition, if a product, method, or process described in this specification or claims is sold incompletely, sold as an individual component, or sold as a “kit of parts” It should be understood that such use is within the scope of the present invention. The above and other features of the present invention, as well as the manner of operation and function of the combination of related structural elements and parts, and the economics of manufacture, are further understood in view of the following description with reference to the accompanying drawings. It will become clear. All drawings form part of the present specification and like reference numerals represent corresponding parts in the various figures.

  In the heater elements 10, 50, 110, 200, any number, thickness, shape of insulating sheets or layers and conductive sheets or layers can be provided so that the heating wires are properly insulated. For other uses of the bag (ie other than heatable bags), the bag fluid may contain other additives such as antifreeze, or the bag may be cooled as a different fluid. Can be frozen material, such as antifreeze and water. Alternatively, the bag fluid or water can be emptied and replaced with the desired fluid. In general, the fluid can be designed to be cooled and heated within the range of -10 ° C to 100 ° C. Any temperature range is possible. Although the term “bag” has been used, other terms relating to other applications are equally possible, such as foot warmers, heating pads, containers, pouches and the like.

For example, as shown in FIG. 16 to FIG. 19 and the like, the electrode plate can have a rectangular shape, the insulating layer can be formed as a sheet or a sleeve, and the heat conductive member can also be a sheet or a sleeve. Can do. The number of layers can be any number. For example, the thermally conductive sheet 215 may be formed as a sleeve having a groove provided on the upper and lower surfaces to further assist the heat transfer from the heater element. Furthermore, the heat conductive sheet 215 has a screw hole for receiving the fixing means 219a in order to detachably attach the outer end support member 216 to the heat conductive sheet 215. The end caps 207 and 212 can have a rectangular shape, and at this time, the end cap 212 is larger than the inner end cap 207.

  For the purposes of the following explanation, the words “up”, “down”, “right”, “left”, “vertical”, “horizontal”, “top”, “bottom”, “lateral”, “vertical” , And their derivatives, in the present invention, shall refer to directions in the figures of the drawings. However, it should be understood that the present invention may take a variety of alternative variations unless otherwise specified. Furthermore, it is to be understood that the specific devices illustrated in the accompanying drawings and described in the following specification are merely exemplary embodiments of the invention. Accordingly, specific dimensions and other physical characteristics related to the embodiments disclosed herein are not to be considered as limiting the invention.

  Of course, the above description has been given by way of illustration of the present invention, and modifications and variations that are apparent to those skilled in the art, as well as other modifications and variations, are within the broad scope of the invention described above. It should be understood that

Claims (10)

A heating element of a heatable fluid-filled bag, the heating element having power connection member means that allow the heater element to be heated when connected to a power source, and an end A first thermal conductive layer having an end, the heat generating member is covered with the first insulating layer, and the first insulating layer is the first insulating layer. The heat generating member, the first insulating layer, and the first heat conductive layer are held together by an inner end support member at each end, the inner end supporting member is insulative, have at least one inner end support member having at least one opening for the power connection member means to be able to penetrate,
The heater element includes a second insulating layer having an end, a second thermally conductive layer having an end, and an intermediate end supporting member, and the second insulating layer includes the second insulating layer. 1 in the form of a sleeve, the second insulating layer is covered by a second thermally conductive layer shaped as a sleeve, and the intermediate end support member Is formed of an insulating material and slidably fits on the end of the second insulating layer and the end of the second heat conductive layer so as to cover and adjoin the inner end supporting member. And at least one intermediate end support member has at least one opening that allows the power connection member means to pass therethrough,
The heat generating member is formed of any material capable of functioning as a resistor for converting electric energy into heat energy, and the first insulating layer and the second insulating layer are formed of plastic; The first thermal conductive layer and the second thermal conductive layer are formed of a metal in a sleeve shape, and the inner end support member and the intermediate end support member are plate cap-shaped members. Formed on the side of the plate cap opposite to the lip portion, an opening is formed as a protruding cylindrical member,
An outer end support member is adjacent to the intermediate end support member at each end of the second thermally conductive layer, and at least one outer end support member is inserted through the electrical connection member. An opening, the opening can be sealed to exclude fluid intrusion into the opening, the inner end support member, the intermediate end support member, and the outer end support member Each of the openings is aligned, an electrical connection can pass through all the openings, and each of the outer end support members has a base that is adapted to be coupled to the inside of the bag. And is fixed to the end of the second heat conductive member.
Heater element.   The power connecting member means includes at least one electrode in the form of an electrode plate member electrically connected to the heat generating member; the heat generating member is sandwiched between the electrode plate members; The power connection member means includes at least one wire electrically connected to each electrode plate member to allow power connection between the heater element and the power connection means. The heater element described. The heater element according to claim 1 , wherein each of the first insulating layer and the second insulating layer can be formed as a double insulating layer. A heatable fluid filled bag adapted to be electrically connected to a power source, wherein the fluid filled bag electrically seals the fluid, at least one heater element, and electrically connects the bag to the power source. Including a power connection means adapted to be connected to the housing, wherein the housing comprises at least one insulating layer, and the heater element comprises a heat generating member having power connection member means, and an end A first insulating layer having a portion and a first thermally conductive layer having an end, wherein the heat generating member is covered with the first insulating layer, and the first insulating layer is Covered by the first thermal conductive layer, the first insulating layer and the first thermal conductive layer being held together at each end by an inner end support member, End support There is an insulating property, have at least one of the inner end support member having at least one opening power connection member means to be able to penetrate in order to be connected to the power connection unit,
The heater element includes a second insulating layer having an end, a second thermally conductive layer having an end, and an intermediate end supporting member, wherein the second insulating layer is the first insulating layer. The intermediate end support member is in the form of a sleeve and the second insulating layer is covered by a second heat conductive layer formed as a sleeve. Is formed of an insulating material and is slidably fitted to an end portion of the second insulating layer and an end portion of the second heat conductive layer so as to cover and adjoin the inner end supporting member. And at least one intermediate end support member has at least one opening that allows the electrical connection member to pass therethrough, and an outer end support member is provided at each end of the second thermally conductive layer. At least one outer end adjacent to the intermediate end support member A holding member has an opening for penetrating the electrical connecting portion, the opening can be sealed to exclude the intrusion of fluid into the opening, the inner end support member, The openings of each of the intermediate end support member and the outer end support member are aligned so that the electrical connection can penetrate all the openings, and each of the outer end support members is located inside the bag. An L-shape having a base that is adapted to be coupled and secured to an end of the second thermally conductive member;
Heatable fluid filled bag. The housing includes at least one inner housing that includes at least one recess for the power connection means such that the recess for the power connection means fits slidably within the inner housing. And a plug housing base having a cylindrical shape with a recess and a plug holder having a cylindrical cap with a plug recess adapted to receive the electrical insertion blade, the plug following the electrical insertion blade An insert holder holder is disposed, and the plug insert holder attachment is followed by an access end cap attachable to the bag, the inner housing being a separate means for safety switching means. The safety switching means includes a sliding housing and a switch; , A bar member having a magnet, and an elongated member having a magnet, the elongated member being coupled to the inside of the bag at one end, and the other end being a power connection member Coupled to the switch by means, and operably coupled to the power connection means by an adjacent magnet, wherein the sliding housing comprises one of the bar member, the switch, and the elongated member having the magnet. The power connection means and the safety switching means are electrically disconnected from the power source by separation of the magnet due to expansion of the bag wall with the elongated member. Item 5. A heatable fluid-filled bag according to item 4 . The heat generating member is formed of any material capable of functioning as a resistor for converting electric energy into heat energy, and the first insulating layer and the second insulating layer are formed of plastic; The first thermal conductive layer and the second thermal conductive layer are formed of a metal in a sleeve shape, and the inner end support member and the intermediate end support member are plate cap-shaped members. is formed as having a lip portion projecting having a recess on the inside, on the opposite side of the plate cap and the lip portion, the opening is formed as a cylindrical member protruding to claim 5 A heatable fluid filled bag as described. Each of the first insulating layer and the second insulating layer and the housing can be formed as at least a double insulating layer so that the bag can contain air or fluid or can be removed from the bag. A thermostat comprising an openable / closable bag plug in the form of a bleed valve or plug in the hole, the bag being electrically attached to the power connection means between the plug housing base and the power connection means recess The heatable fluid-filled bag of claim 6 , wherein the end cap can have an LED to indicate whether it is electrically connected. The bag includes the safety switching means and includes a magnet located in the elongate member that mates with a magnet in the safety switching means;
A heatable fluid-filled bag according to claim 7 . The heatable fluid-filled bag of claim 8 , wherein the fluid may include an antifreeze so that the bag can be cooled. The heatable fluid-filled bag of claim 9 , wherein the fluid can be heated by the heater element to a temperature in the range of -10C to 100C.

Images